Method and means for making containers



Jan. 28, 1941. a. A. MOORE mmuon AND MEANS FOR MAKING coummaas Filed Nov. 6, 1957 12 sheets-sheet 1 Jan. 28, 1941. ca. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS G. A. MOORE 2,229,864

METHOD ANDMEANS FOR MAKING CONTAINERS Filed Nov. 6, 1937 12 Sheets-Sheet Jan. 28, 1941.

INVENTOR BY V ATTORNEY 254mm M Jan. 28, 1941. G. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS Filed NOV. 6, 1957 l2 Sheets-SheetA ATTORNEY Jan. 28, 1941. a. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS:

Filed Nov. 6, 1957 12 Sheets-Sheet 5 lNVENT OR I Jan. 28, 1941. a. A. MOORE METHOD AND MEANS FQR MAKING CONTAINERS Filed Nov. 6, 1957 12 Sheets-Sheet 6 ATTORNEY Jan. 28, 1941. G. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS l2 Sheets-Sheet 7 Filed Nov. 6, 1937 cam ATTORN EY Jan. 28, 1941. G. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS Filed Nov. 6, 1957 12 Sheets-Sheet 8 kidmc M ATTORNEY Jan. 28, 1941. G. A. MOORE 2,229,864

METHOD AND MEANS FOR MAKING CONTAINERS Filed Nov. 6, 1937 12 Sheets-Sheet 9 INVENTOR h A [214cm ATTORNEY Jan. 28, 1941. e. A. MOORE METHOD AND MEANS FOR MAKING CONTAINERS Filed Nov. 6, 957 12 Sheehs-Sheet 10 INVENTOR fla M 74m ATTO R N EY Jan. 28, 1941. 5, A, MOORE METHOD Am) MEANS FOR MAKING CONTAINERS 12 Sheets-Sheet 11 Filed Nov. 6, 1937 FL ON 30 770M SEALER PLOW TOP

627M ER FOR/WEI? l/OL 05R and PACK/N5 INVENTOR ATTORNEY Jan. 28, 1941.

G. A. MOORE 2,229,864

METHOD AND MEANS FOR MAKING CONTAINERS l2 Sheets-Sheet 1-2 Filed Nov. 6, 1937 m INVENTOR. I BY /Ja/L/M0 7 %[W X Kev/cam ATTORNEY.

Patented Jan. 28, 1941 PATENT OFFICE METHOD AND MEANS FOR MAKING CONTAINERS George Arlington Moore, Louisville, Ky., assignor to Humoco Corporation, Louisville, Ky., a corporation of Delaware Application November 6, 1937, Serial No. 173,101

17 Claims.

This invention relates to containers and more particularly to methods and means for makin containers from foldable materials, such as paper and metallic foil, for example.

Una of the objects of the present invention is to provide a novel method for making containers from blanks comprising fibrous materials which are substantially impervious to air and moisture.

Another object of the invention is to provide a novel method of making containers wherein the same may be quickly and inexpensively made and hlled in large quantities with the aid of high-speed machinery.

Still another object is to provide novel poweroperated apparatus which may be employed in carrying out the novel method of the invention.

further object is to provide novel means for folding and sealing the ends of an open-ended container to therebyform an hermetic end closure.

u still further object is to provide novel means for ma open-ended container bodies or the like from blanks of foldable materials, such as paper, foil and the like.

iinother object is to provide novel apparatus whereby foldable portions projecting from. the walls of containers or container bodies may be readily folded down against said walls.

The alcovev and further objects and novel features of the invention will more fully appear from the following detailed description when the se is read in connection with the accomp drawings. It is to be expressly understood, however, that the drawings are for the purpose of illustration only and are not intend ed as a definition of the limits of the invention, reference being had for this latter purpose to the appended claims.

in the drawings, wherein like reference characters refer to like parts throughout the several views,

Fig. 1 is an isometric view, with parts broken away, showing a container body formed in accordance with the novel method of the invention, said body being shown on a mandrel which constitutes a. part of the novel apparatus provided for carrying out said method;

Fig. 2 is a detail sectional view taken on line t-2 of Fig. 1 and showing a portion of a preferred form of blank employed in making said y;

Fig. 3 is a view similar to Fig. 1 showing one end of the body folded and sealed in a novel manner;

Fig. 4 shows the sealed portions of the contamer folded flat against the walls thereof;

Fig. 5 shows the container after the sealing of 5 the second end thereof; i

Fig. 6 illustrates the completed container;

Fig. '7 is a side elevation, with parts broken away, of one form of the novel body making machine employed in making th body of Fig. l in accordance with the novel method of the invention;

Fig. 8 is a similar front elevation of said bodymaking machine;

Fig. 9 is an enlarged detail front view, partly in section and with parts broken away, of a portion of said machine in open position for receiving a lolanik;

Fig. lil is a similar side elevation of said pcr tion in the same position;

Figs. ii, l2 and 13 are views similar to Fig. 9 and show the folding and sealing mechanisms of the body-making machine in successive positions during the body forming movement thereof;

Fig. it is a side elevation view, with parts broken away, of one form of novel end forming apparatus for folding and sealing one end of the container;

Fig. 15 is a similar front elevation of said apparatus on a slightly enlarged scale;

Fig. 16 is a detail top view, partly in section, of a portion of the safety mechanism of said apparatus, the view being taken on line lit-i6 of Fig. ll;

Fig. l? is an enlarged detail view of a portion of said apparatus with the jaws thereof in open position for receiving a container body and supporting mandrel;

Fig. 1B is a detail plan view of said apparatus, partly in section and with parts broken away, showing the end folding blades in the positions assumed thereby at the beginning of the folding operation;

Fig. 19 is a sectional front elevation of the details shown in Fig. 18;

Fig. 20 is a detail sectional view of a portion of the folding mechanism of said apparatus showing the folding blades after forming the end wall and closure tab, and showing thesealing irons moving into position to engage the tab;

Fig. 21 is a similar view showing the sealing irons in operative position;

Fig. 22 is a view similar to Fig. 18 but showing the end folding blades at the end of the folding operation;

Fi 23 is a front elevation view of the detail parts of Fig. 22 in the same position;

5 Fig. 24 is a sectional side elevation, with parts broken away, of apparatus for folding the tabs formed during the end folding operation and showing a container at the beginning of its movement into said apparatus;

Fig. 25 is a side elevation of said apparatus with a container shown at the end of its tab folding movement;

Fig. 26 is a top plan view of said apparatus, partly in section and partly broken away, the section being taken on line 26-26 of Fig. 25;

Fig. 27 is an isometric view of a partially closed container supported by a chuck for fill- 8;

Fig. 28 is a side elevation view of the same after the filling operation, a portion being shown in section and a portion being broken away;

Fig. 29 is a partial side elevation of novel apparatus for closing and sealing the other end of the container, the folding and sealing mechanisms thereof being shown in closed or operative position;

Fig. 30 is a front elevation view of said apparatus, i. e., viewed from the left as seen in Fig. 29 on a slightly enlarged scale;

Fig. 31 is an enlarged side elevation of the folding and sealing mechanisms of said apparatus in open position for receiving a filled container and its supporting chuck;

Fig. 32 is a rear elevation of another form of plow for folding and tacking the tabs formed during the end folding and sealing operation;

Fig. 33 is a side elevation view of said plow;

Fig. 34 is a diagram illustrating the progress 40 of the container through the means for carrying out the novel method of the invention;

Fig. 35 is a wiring diagram for the electrical heating element employed in the body making machine of Fig. '7; and,

45 "Fig. 36 is a wiring diagram for the electrical heating elements and safety means embodied in the end forming and sealing machines of Figs. 14 and 29.

One form of container which may be constructed by employing the novel apparatus comprehended by the invention in carrying out the novel method hereinafter described is illustrated, by way of example, in Figs. 1 to 6, inclusive, of the accompanying drawings in the form of 55 an impervious container comprising fibrous material, said container being suitable for packaging a large number of products, particularly those of a hygroscopic nature, such as tobacco. The embodiment illustrated is made from an 60 impervious rectangular blank 6 (only partly shown in section, Fig. 2) which preferably comprises an inner paper lamina "I and an outer lamina 8 of non-hygroscopic material, such as metallic foil, said laminae being secured together with an elastic adhesive. As shown, foil layer 8 constitutes the external surface of the blank or container made therefrom and is coated with a thin, dry film of thermoplastic lacquer or the like having adhesive and moisture-proof properties.

70 Du Ponts lacquer No. X-660-208 may be employed for this purpose, the same serving as a binding medium whereby the container may be imperviously sealed against the entrance or escape of air or moisture in a manner which will 75 hereinafter appear. Preferably, the marginal portions of two opposed edges of blank 6 are folded inwardly, as best seen in Figs. 1 and 2. for forming reinforced margins or hems 9 and providing means for obtaining metal-to-metal closure seams in the container made from the blank when the same is folded and sealed in accordance with the novel method hereinafter described. Said infolded margins may be adhesively secured in folded position either prior to or during the fabrication of the container from the blank and, if desired, a part of all of the outer surface of paper lamina 1 may be coated with a thin, dry film of lacquer, such as Du Ponts lacquer No. 603-208, for further insuring the moisture-proof qualities of the container and serving as a thermoplastic adhesive for securing said infolded margins in folded position. In addition to the above, any or all of the raw edges of blank I, 8 may be impregnated with paraflin wax or the like to prevent the wicking of moisture by the paper component 7.

In practicing the novel method of the invention, blank 6 is first wrapped around a mandrel or arbor ill by means of the operation of a novel body-making machine (Fig. 7) so that the opposed edges of said blank overlap in the manner best seen in Fig. 1. The overlapping edges are heat-sealed by said machine along a seam lfla extending longitudinally of mandrel I 0 thereby forming an open-ended body ll of rectangular cross-section having reinforced edges 9 extending around the peripheries of the open ends thereof. Seam I 0:: may be formed at any point about the periphery of body II but is preferably near one corner thereof in order that the sealing iron will not deface printed matter which may be provided on the outer surface of lamina 8.

After the formation of body H, the same is removed, together with mandrel ill, from the body-making machine and transferred to a novel top-forming and -sealing machine (Fig. 14). While inserting the mandrel supported body in the top sealer, the body is caused to slide longitudinally of the mandrel to the position illustrated in Fig. l, i. e., to a position such that a marginal portion of the body ll overhangs the outer end of mandrel Ill. The width of the overhanging marginal portion measured in the direction of the longitudinal axis of body I l is preferably substantially equal to one-half the width of said body plus the length of reinforced margin 9. While body H is thus supported in the top-forming machine, said overhanging marginal portion is folded, by novel means and in a novel manner to appear hereinafter, along lines A to D, inclusive, to thereby form a two-part end wall l2, l2 (Fig. 3), a pair of laminated triangular tabs or ears l3, and a tab it extending across the end of the container at the center thereof and terminating at the extreme vertices of said triangular tabs. End walls l2, l2 are constituted by infolded portions of side walls Ha of the body, tabs l3, l3 are formed by simultaneously folding portions of side walls I lb outwardly along line A and inwardly along lines C, and tab H is formed by folding sides Hb along lines D to thereby bring opposed halves of the inner peripheral, foilfaced surface of reinforced margin 9 into engagement.

While the above-described folded portions are positively held in folded position by the folding means, a pair of heated sealing irons constituting a part of the folding and sealing machine move into engagement with opposed faces of tab l4 and apply suflicient heat and pressure thereto lid hill

Elli

bill

ill

ill

to activate the dry lacquer film on the engaging inner surfaces of opposed halves of hem 9 and press the same into the interstices of said surfaces. The latter are thus quickly and emciently welded together to form an hermetic metal-tometal seal or seam closing what will be referred to as the top or upper end of the container I5. The sealing irons are preferably provided with one or more sets of cooperating ribs and grooves whereby tab II, which is constituted by hem 9 is embossed along lines i8 for further insuring an hermetic seal, particularly at the edge of seam Illa. In order to facilitate opening of the package by the consumer, the sealed portion of tab it preferably does not extend to the extreme outer edge thereof. The consumer is thus enabled to initiate the separation of the opposed halves of tab H easily and without danger of tearing the material from which the container is made. A firm digital grip may then be obtained on said opposed halves for separating the sealed portions thereof and hence for opening the container to dispense the contents therefrom.

After one end of body Ii is thus sealed, said body, while still supported on mandrel I0, is removed from the top-sealing machine and inserted in a novelly constructed plow (Figs. 24 to 26) wherein, by a single linear movement of said body and mandrel, tab H is folded flat against end wall if, and the projecting ends of said tab, together with ears l3 are folded down against side walls lib (Fig. 4). If desired, said ears may be adhesively tacked against walls lib or the same may be effectively held in folded position by any other suitable means, such as the internal revenue stamp required on packaged tobacco.

Container lb, having one end thereof completed, is now removed from mandrel it and inserted in a ehucli: ll (Figs. 21 and 28). ."lhe container is then filled through the open end thereof with a measured quantity of tobacco it or other product to be packaged and a stiff secondary closure or packing strip it of newsboard or the like (big. 28), having an area substantially equal to the inner cross-sectional area of the container is inserted against the tobacco and pressure exerted thereagainst by a suitable plunger (not shown) for packing the tobacco. Strip lb is preferably inserted to such an extent that, after withdrawal of the packing plunger, it will assume a position in the plane of the outer end of supporting chuck H (Fig. 31).

The filled container, together with portable chuck ii in which it is supported, is transferred to a novel bottom-folding and sealing machine whereby the bottom end of the container through which the same was filled is closed and sealed in the same manner in which the top was sealed,

1. e., by forming a two-part end wall l2, l2, laterally extending ears l3, l3, and sealed tab it (Fig. 5) all by the operation of angularly moving folding members or blades and converging sealing irons to be hereinafter fully described. During this latter folding and sealing operation, strip l9 serves as an internal support for main,- raining the desired outline or shape at the bottom end of the container.

After being completed to the stage illustrated in Fig. 5, container l5, together with chuck I1, is removed from the bottom-sealing machine and transferred to a plow and tacking mechanism (Figs. 32 and 33) wherein by a single linear movement of the chuck-supported container, tab i4 is folded flat against end wall 12', and ears l3, I 3', together with the projecting ends of tab ll, are folded inwardly against the bottom of the container and heat-sealed in position, thereby completing the hermetically sealed container, as seen in Fig. 6.

Body-making As pointed out in the foregoing general description of the novel method for making, illiing and hermetically sealing container ii, the first steps of said method after the provision of the blank in the form shown in Fig. 2, l. e., the folding and sealing of said blank to 'form body i I, are adapted to be carried out :by a novel body-making machine, one suitable form of which is illustrated in Figs. '7 to 13, inclusive.

In the form illustrated, said body-making machine comprises a frame structure consisting of a base 2|] and a vertically extending cylindrical standard or support 2| to which are secured a pair of brackets 22 and 23 (Fig. 7). Common power means constituted by a fluid pressure operated motor 24 of the reciprocating piston, double-acting type pivotally mounted on base 20 are provided for actuating both the folding and sealing mechanisms of the machine. Fluid. pressure within motor 2A is controlled by a manually operable rotary valve mechanism 25, the valve rotor being normally held by a spring 26 (Fig. 8) in position to admit fluid under pressure from a suitable source (not shown) through conduits fl and it to the lower end of motor cylinder 24 and vent the upper end of said cylinder to atmosphere through conduits 2t and 30. When it is desired to effect a body-making operation, the operator depresses a pedal iii from the dottedline position to the full-line positionshown in Fig. 7 against the efforts of spring 26, thereby actuating the valve rotor and reversing the pressure and air vent connections to motor cylinder lit and causing the piston therein to move downwardly and, hence, pull piston rod 32 down- War dly to the illustrated position.

The initial or first portion of the downward movement of pistonrod it isoperative through a yieldable driving connection, such as a friction clutch mechanism, to actuate novel folding means for wrapping blank 6 around mandrel w. The latter, in the embodiment shown, is of rectangular cross-section and may be made of a light-Weight material, such as duraluminum. Said mandrel is provided with a pair of longitudinally extending cylindrical bores 33 whereby the same is adapted to be slidably and removable mounted on a pair of supporting 131115.34, 34

rigidly secured to bracket 23 (Figs. 9 and Preferably, a spring-pressed ball 35 or the like is mounted in mandrel ill and projects into one of the bores 33 for cooperation with a suitable notch or depression in one or the other of pins 34 (Fig. 9) to thereby properly position the mandrel on said pins with respect to the folding mechanism.

The novelmeans provided for folding blank 6 around mandrel H) are mounted directly below the latter and comprise a casting 36, the upper surface of which is of substantially the same dimensions as one side Ha of body ll. Formed integrally with said casting and projecting downwardly therefrom is a centrally disposed, hollow, cylindrical portion 31 slidably receiving a vertical rod 38 which also slides in a bearing constituting a part of bracket 22. The upward movement of casting 36, 31 relative to rod 38 is limited by the enlarged upper end of the latter, said casting being normally held in limiting podill [ill

till

sition (Fig. 9) by a spring 39 interposed betweenthe lower end of said casting and a collar on said rod.

For clamping blank 6 against the lower face of mandrel l and folding the ends thereof upwardly, along the sides of the mandrel, a pair of upwardly extending, resilient blades or plates 40, having the upper edges thereof beaded, are rigidly secured to the long sides of casting 36, and a buffer plate 4| is mounted on said casting for yieldingly resisted movement relative thereto. Plate 4| has a pair of depending legs 42 which slidably extend into hollow bosses 43 which are formed integrally with and project downwardly from casting 36 (Fig. 10). Suitable resilient means, such as springs 44, are provided in bosses 43 for yieldingly holding plate 4| in raised position with the upper surface thereof slightly above the plane of the beaded edges of blades 40.

Novel means are also provided for effecting the folding of the ends of blank 6 across the upper surface of mandrel l0, said means, as shown, comprising a pair of diametrically disposed cams 45 and 46 secured to rod 38 and slidably extending through radial slots 41 cut in casting portion 31. Slidably and yieldably bearing against cams 45, 46 are rollers 48, 48 carried between a pair of spaced arms 49. The arms of each of said pairs are rigidly connected together by a plate portion 50 and are secured to a shaft 5| for pivotal movement therewith, said shaft being rotatably journalled in bearings 52 formed integrally with casting 35. Rollers 48 are normally held in yielding engagement with cams 45 and 46 by suitable springs 53 that are secured under tension to the ends of depending arms 54 which are mounted on shafts 5i at the ends thereof for rotation therewith. Secured to plate portions 50 by any suitable means, such as set screws, are folding blades 55 and 56, the upper ends of which are curved inwardly, as best seen in Fig. 9, for a purpose which will more fully appear in the description of the operation which follows.

To provide for the reciprocation of rod 38 and the folding means associated therewith, said rod is operatively connected to piston rod 32 through a friction clutch mechanism comprising a pair of plates 5! and 58 rotatably mounted on a shaft 59 projecting from bracket 22, said plates being held in frictional engagement with each other by a coil spring 6! Clutch plate 51 is provided with an arm iii, the outer bifurcated end of which straddles a pin 62 that projects radially from piston rod 32. A similar arm 63 is formed integrally with clutch plate 58 and cooperates with a pin 64 extending across the bifurcated lower end of rod 38. Thus, as piston rod 32 is moved downwardly by motor 24, rod 38 will be moved upwardly until the latter reaches the limit of its movement whereupon slippage between clutch plates 57, 58 occurs during continued downward movement of the piston rod.

During said continued downward movement of piston rod 32, the upper end thereof operatively engages a connecting pin 65 which extends between the adjacent ends of a pair of links 66 and 61 through an elongated slot 32a in said piston rod, to effect the operation of the sealing means to be next described, whereby the overlapping ends of the folded blank are heat-sealed to form longitudinal seam l Ila/Link 66 is pivotally mounted on a shaft 66a, which extends between bifurcated portions of bracket 23, and link 61 is pivotally secured to the lower end of a crank arm 68 that is fixed to the central portion of a horizontal shaft 69 rotatably journalled in bracket 23. Secured to the outer end of shaft 69 for angular movement therewith are a pair of sector gears 10, 10 that mesh with a similar pair of gears H, H which are, in turn, secured to the ends of a rotatable shaft 12 also journalled in bracket 23. On the central portion of shaft 12, there is mounted a crank arm 13, the outer bifurcated end of which straddles and is pivotally secured at 14 to an upwardly extending post I5 formed integrally with an elongated sealing element or iron 16.

In order to insure that the face of said sealing iron will simultaneously engage body ll throughout its entire length, means are provided for maintaining the face thereof parallel to the upper surface of mandrel ID at all times. This result is effected, in the illustrated embodiment, by including crank 73 and post 15 in a parallel motion linkage comprising a link H which is pivotally secured at 18 to the upper end of post 15 and at 79 to an upwardly extending portion 80 of bracket 23. Preferably, the lines connecting the center of pivots 12, 14, 18 and 19 form a parallelogram, but this is not necessary as long as the linkage is adjusted so that the face of sealing iron l6 and mandrel ID are parallel when the former is in its contacting position. Sealing iron 16 may be heated by any suitable means, an electric heating element or calrod 8| being preferred. A thermostat control bulb 82 is mounted in iron I6 and connected to a thermostat which, in turn, controls an electric circuit including heating element 8! in a manner to appear hereafter (Fig. 35) for controlling the temperature of said sealing iron.

Means are provided in conjunction with sealing iron 16 for holding an end portion of blank 6 firmly against mandrel it during the sealing operation and, in the form shown, said means comprise an elongated pressure plate 83, best seen in Fig. 10, which is supported by a pin 84 that is mounted on a bar 85 and slidably extends through slightly elongated openings in a pair of ears 86 on said pressure plate. The elongation of said openings permits of some relative movement between plate 33 and bar 85, which movement is yieldingly resisted by a plurality of springs 87 interposed between the upper surface of said plate and a flange portion 88 on the lower end of said bar. The latter is pivotally supported by both of the pivots M and 78 whereby pressure plate 83 is caused to move in unison with sealing iron '56 and is maintained in parallel relation to the surface of mandrel i 0.

As pointed out above, downward movement of piston rod 32, after the same engages pin 65, is effective through the above-described linkage and gearing to move sealing iron 16 and pressure plate 83 downwardly into operative engagement with mandrel in or the blank 6 wrapped around said mandrel. Upon upward movement of piston rod 32 from the position illustrated in Fig. '7, a spring 89 connected between pivots 66a and 68a is effective to buckle links 66 and 6'! upwardly at pivot 65 and hence lift the sealing iron and associated elements to the position illustrated in Fig. 9.

The blank to be folded or wrapped about mandrel ill to form a container body may be supported between said mandrel and buffer plate 5| by any suitable means, such as a pair of angular trays 90 and 9! which are sufficiently spaced from each other to permit folding blades 65 and 58' to move therebetween. As shown, tray 90 is secured to bracket 23 and tray 91 is mounted on a supporting rod f9la which is, in turn, adiustably supported by 'acountersunk-portion 92 on bracket 23. Trays 90 and 9| serve both as supporting means and positioning means for. the blank.

In the operation of the body-making machine above-described, mandrel I is first placed on pins 34 and a blank 6 is inserted in trays 90, 9| as seen in Fig. 9. The operator then depresses pedal 3! to admit pressure fluid tothe upper end of motor cylinder. 24 and thus-effect a downward movement of piston rod 32. ment is translated through clutch 51, 68 into upward movement of rod 39 and the folding mechanism associated therewith. Spring 39 is sufficiently stiff so that during the initial upward movement of rod 38, the entire folding mechanism moves in unison therewith, thus moving buffer plate 4| into engagement with blank 6, whereby the latter is yieldingly clamped against mandrel illby reason of the compression of springs 44, and moving resilient blades 40, 43

into engagement with the blank and upwardly along the sides, of mandrel III to effect the upward folding of the ends of said blank (Fig. 11).

When casting 36, 31 reaches its limit of movement, i. e., when stop pins 93 engage buffer plate 4i and further upward movement of said casting is prevented by mandrel i0, rod 38 continues to move upwardly compressing springs 39 and lifting cams 45, 46 relative to rollers 48. As the latter ride out on the inclined surfaces of said cams, arms 49 are pivotally moved to carry the upper edges of folding blades 55, 56 into engagement with the vertically extending portions of blank 6 along lines slightly above the upper surface of mandrel I0 for folding the ends of said blank inwardly and downwardly against the mandrel (Fig. 12). The relative speed with which blades 55 and 56 move inwardly may be controlled by varying the slope of the operative faces of the cams. It will beseen that, in the present embodiment, cam 45 is so formed that blade 55 will complete its folding operation ahead of blade 56 to thereby insure the overlapping of the ends of blank 6 beneath sealing iron 16 in the desired manner.

At or about the time rod 38 reaches the limit of its movement in an upward direction and the ends of blank 6 have been folded inwardly,piston rod 32 begins to exert a downward pull on pin db. Accordingly, upon continued downward movement of said piston rod, during which clutch plate 51 moves relative to plate 58, downward movement of pressure plate 83 and sealing iron "it is effected through the linkage and gearing heretofore fully described, including cranks 68, ill and 12, 13. Pressure plate 93 is the first to contact blank 6 and is effective through the action of springs 81 to yieldingly clamp-the longer free end of said blank against the upper surface of mandrel l0. As said springs are being compressed, sealing iron 16 moves into engagement with the upper-most of the overlapping ends of blank 6. The heat from iron 16 and the pressure exerted thereby are effective to activate the lacquer coating between said overlapping ends and to press the same into the interstices of the engaging surfaces whereby the latter are substantially welded together and the impervious, longitudinal seam Illa is formed.

The operator then releases pedal 3| whereupon the rotor of valve 25 is shifted by spring 26 to This movea position whereby the lower end of motor cylinder 24 is connected to the source of fluid pressure and the upper end of said cylinder is connected to atmosphere. Piston rod 32 is thus moved upwardly by motor 24 and rod 38, together with the folding mechanism, is moved downwardly through the operation of friction clutch 51, 59. The initial movement of rod 38 is relative to casting 33, 31, due to the compression of spring 39, so that cams 45, 46 move downwardly relatively to rollers '49 and permit springs 53 to pull folding plates 55 and 53 away from mandrel l3 and accordingly free casting 36, 31 for downward movement.

As soon as piston rod 32 begins to move upwardly, spring 89 becomes effective to buckle links 96, 91 for lifting sealing iron 19 and pressure plate 93 in a manner heretofore pointed out. If desired, spring 39 may be comparatively small, in which event upward movement of the sealing iron will be eflected by the upward movement of piston rod 32 after pin 65 is engaged by the lower end of slot 32a. It will be noted that, after the lower end of casting 33, 31 engages'bracket 22, slippage will occur between clutch plates 51 and during the remainder of the upward movement of piston rod 32.

Top-sealing When body II has been thus formed and the sealing mechanism withdrawn in the manner above described, said body and mandrel I0 are manually removed from the body-making machine and transferred to a novel end-forming and -se'aling apparatus illustrated in Figs. 14 to 23, inclusive, wherein one end, referred to as the top, of body II is folded and sealed, thereby completing container to the stage illustrated in Fig. 3. In the illustrated embodiment of said end-sealing machine, the folding and sealing mechanisms are adapted to be actuated by common power means which may be controlled by rotary valve means. Said power and control means may be substantially the same as the corresponding means 24 and 25 illustrated in Fig. 7 and accordingly the showing thereof is not duplicated in Fig. 14. Standard 94 and piston rod 95 correspond to parts 2! and 32, respectively, of Fig. '7, and said standard has a casting or bracket 96 rigidly secured to the upper end thereof for supporting the novel folding and sealing mechanisms to be hereinafter described.

Said end-folding and -sealing apparatus is provided with suitable means for supporting mandrel l0 and body ll, said means, in the form shown, being constituted by a pair of pins 91 which are adapted to slidably project into bores 33 in the mandrel. In order to facilitate the insertion of the mandrel into said apparatus, pins 91 are slidably mounted in and project through bracket 96, the rear ends thereof being secured together by means of a bar 98 which engages bracket 96 to limit the forward movement of said pins, i. e., movement to the left, as viewed in Fig. 14. The rearward movement, l. e., movement to the right, as viewed in Fig. 14, of said pins is limited by a bar 99 which Joins the outer ends of a pair of rods I00 that are rigidly secured to bracket 93 on opposite sides of pins 91. The latter are provided with suitable notches adjacent the forward ends thereof (Fig. 18) adapted to cooperate with spring-pressed ball 35 in mandrel l0 so that said supporting pins 91 will be pulled forwardly or outwardly each time a mandrel is removed therefrom.

When mandrel I0 and body II .are received from the body-making machine, every portion of said body surrounds a part of the mandrel. Means are accordingly provided in the end-folding machine to slip or slide the body longitudinally of the mandrel to the position illustrated in Fig. 4, i. e., with hem 9 and a peripheral band portion A--B overhanging the end of the mandrel. Said means, as shown, comprise a pair of guide plates IOI which are mounted on bracket 95 by any suitable means, such as stud bolts IOIa, in position to engage or nearly engage sides Nb of body II. Said guide plates are provided with inwardly extending ribs I02 that extend into grooves I03 milled in the sides of mandrel I0 adjacent the inner end thereof (Fig. 1). Thus, as the operator places mandrel I0 on pins 91 and pushes the same inwardly or to the right, as viewed in Fig. 14, ribs I02 enter grooves I03 and engage the end edges of the side walls I lb of body II. Movement of the latter is accordingly arrested as mandrel I0 is pushed therethrough and into engagement with bracket 96, the movement of said mandrel relative to body I I being equal to one-half the width of the mandrel plus the width of hem 9.

The novel mechanisms of Fig. 14, provided for folding and sealing that portion of body I I which overhangs mandrel I0, are adapted to be successively moved to operative and inoperative positions by the reciprocation of piston rod 95. As shown, the upper end of said piston rod is piv otally connected at I04 to the pivotally connected ends of a pair of links I05 and I06. Link I05 is pivotally mounted on a pin I01 extending between bifurcated portions of bracket 96 and link I06 is pivotally connected to the lower end of the depending arm I08 of a bell crank lever which also includes a horizontally extending arm I09. Lever I08, I09 is keyed or otherwise suitably secured to the central portion of a shaft IIO which is rotatably mounted in bearings formed in the upper bifurcated portion of bracket 96, the axis of said shaft being below pins 91. Fixedly mounted on the outer ends of shaft IIO are a pair of sector gears I I I which mesh with a similar pair of gears II2 secured to the ends of a second shaft H0 rotatably mounted in bracket 96 directly above shaft H0 and provided with a crank arm I09 corresponding to arm I09. Thus, as piston rod 95 is reciprocated by the fluid pressure motor, shafts H0, H0 are caused to rotate through predetermined angular distances in unison with each other but in opposite directions to thereby impart converging and diverging jaw-like action to arms I09 and I09.

Novel means adapted to be controlled by the movements of arms I09, I09 are provided for folding the ends of body II to form end walls I2, ears I3 and tab I4, as shown in Fig. 3. Said means, in the illustrated embodiment, comprise two pairs of arms H3 and 3' which are loosely mounted at one end thereof on shafts H0 and H0, respectively, but are yieldingly connected thereto by pairs of coil springs I I4 and I I4 which surround shafts H0 and H0 and have the opposite ends thereof secured to arms H3, H3 and gears III, II2, as best seen in Fig. 17. Springs H4, H4 tend to pivot arms H3, H3 toward each other, but, when the outer ends of the latter are not in contact, movement thereof relative to shafts H0, M0 by said springs is limited by pins or lugs H5, 5' which project laterally from crank arms I09, I09 and through elongated slots H6, H6 in arms H3, H3. The outer end of each of the arms H3, H3 is provided with a bearing (Fig. 18) in which pairs of stub shafts or trunnions III, III are rotatably supported. The trunnions of each of said pairs are connected together by, and support, folding members or blades H0 and I I8, the latter being secured to said shafts in any suitable manner so that the blades will move angularly therewith and about substantially the same axes as the trunnions. Each of the shafts II'I has a sector gear II9 fixedly secured to the outer end thereof and adapted to mesh with a corresponding gear II9 fixed to the end of one of the shafts 1', when the parts are in operative position, as illustrated in Fig. 14.

Shafts II! and Ill may thus be rotated in opposite directions to swing blades I I8, II 8' inwardly into contact with side walls Ila of body II. When said blades have been swung through an angle of 90 from the position illustrated in Fig. 19, the same will have effected the folding of the overhanging marginal portion of the body to form end walls I2, ears I3 and tab I4, as seen in Fig. 23, said end walls being pressed against the end of mandrel I0 and ears I3 against laterally projecting ears I20 on guide plates IOI. Movement of shafts III, III and blades H8, H8 for the above purpose may be effected by exerting a force, in a manner and by means to be hereinafter fully described, on a fin I2I secured to the outer end of one of the shafts Ill and a similar fin I2l secured to the outer end of a shaft 1' at the upper side of the machine. Return movement of blades H0, M8 to the normal position illustrated in Fig. 18 after a folding operation may be effected by coil springs I22, I22 which surround shafts H1, H1 and have the opposite ends thereof secured to gears H9, H9 and arms I I3, I I3 respectively. The movement of the folding blades by said springs may be limited in a manner to hereinafter appear.

Means including heated sealing irons mounted on the outer ends of arms I09, I09 are provided for sealing and embossing tab I4 while the folds formed by the swinging movement of blades H8, H8 are positively held in folded position by said blades. As shown, the outer ends of said arms extend between the prongs of the bifurcated portions of a pair of sealing irons I23 and I23 (Fig. 15) which are loosely mounted on a pair of shafts I24 and I24, respectively, that extend through opemngs in the outer ends of crank arms I09, I09 and are fixed against rotation relative thereto. Irons I23, I23 are thus supported by the outer ends of said crank arms and are adapted for pivotal movement relative thereto. Upon the converging movement of arms I09, I09 effected by downward movement of piston rod 95, the operating faces of said sealing irons are adapted to engage opposite sides of tab I4 to apply heat and pressure thereto for imperviously sealing the engaging surfaces thereof together and thus form an impervious closure seam. Said operating faces are accordingly of substantially the same length as tab I4 and are provided with cooperating ribs and grooves (Fig. 21) for embossing said tab along lines I9 (Fig. 3). Irons I23, I23 may be heated by any suitable means, such as electric heating elements I25, I25 which are removably mounted in said irons adjacent the operating faces thereof. One or more thermostat control bulbs I25 may be provided in said sealing irons for controlling a thermostat which, in turn, is adapted to open and close a circuit including the sealing irons.

In order to insure a parallel relationship between the operating faces of irons I25 and I25' at all times and particularly when the same are in contact with tab I4, parallel motion means are provided by pivotally connecting the arms of the bifurcated portions of said irons at I21, I21 to the ends of two pairs of links I29, and I28 which are, in turn, pivotally connected to bracket 96 at I29 and I29, respectively. The axes of pivots I28 and I23 are so chosen that the lines connecting the centers of pivots IIO, I24, I21 and I29, as well as those connecting the centers of pivots IIO, I24, I21 and I29, will always form parallelograms. Accordingly, the operating faces of irons I23 and I23 will remain horizontal and parallel to each other at all times.

For the purpose of actuating blades H8, H8 oi" the folding mechanism above described, shafts I 24 and I24 are extended in opposite directions from sealing irons I23 and I23 and have radially extending arms I30 and I30, respectively, rigidly secured thereto. Rollers I3I and I3I are provided on the outer ends of arms I30, I30 and are adapted to engage fins I2I, I2I'. Said arms ac- I cordingly limit the divergent angular movement of blades H8, H8 by springs I22, I22 and are effective to impart converging angular movement thereto during the relative movement of crank arms I09, I09 and arms H3, H3 permitted by slots Ilt, 'II6 after gears H9, 9' move into mesh.

In order to insure that mandrel I0 is properly and fully inserted between the jaws of the abovedescribed machine so that the latter will not close thereon, novel electrical control means are provided whereby operation of the machine cannot take place until the mandrel is in a predetermined position therein. In the form shown, said control means comprise an electrical control switch mounted on bar 99 and including normally open contacts I32 and I33 (Fig. 14). Movable contact I33 is cperatively connected to and insulated from a small rod I34 which slidably extends through bracket 90 between pins 91, and projects for a very short distance between guide plates IOI so as to be engaged by mandrel I0 when the latter is inserted against said bracket (Fig. A spring I33 is provided for acting upon rod I34 to normally hold contacts I32, I33 in open position, Said contacts are accordingly moved to closed position only when mandrel I0 is inserted to its fullest extent (Fig. 18) to thereby move rod I34 and contact I33 in opposition to the efiorts of spring I35 and, hence, close switch I32, I33.

Connected in circuit with contacts I32, I33 is the coil of a solenoid I30 which is mounted on a sleeve I31 that is operatively connected to the movable element of a fluid pressure motor (not shown) and adapted to slidably receive the lower end of rod 95. Pivotally mounted on sleeve I31 and operatively connected to the movable core of solenoid I36 is a bell crank I33, one arm of which is adapted to extend edgewise through a horizontal slot in said sleeve and into a registering groove in rod 95 when solenoid I36 is energized to thereby operatively connect said sleeve and rod. When switch I32, I33 is open and said solenoid is not energized, a spring I39 is adapted to pivot bell crank lever I38 to a position such that the latter is withdrawn from the above-mentioned slot in rod 95, thereby permitting sleeve I31 to move downwardly independently of said rod and accordingly prevent actuation ing machine and, with said top-forming machine in the open or inoperative position illustrated in- Fig.- 1'1, inserts said mandrel and body between guides IM and onto pins 91 which have been pulled outwardly by the removal or the previous mandrel to a point at which bar 98 engages the rear of bracket 96. As the mandrel and body are moved rearwardly by pressure exerted on the outer end of the mandrel, said body engages ribs I02 and is arrested while the man drel continues to slide therethrough and into engagement with pin I 34 and bracket 90. It is only during the last smallfraction of an inch of such movement that mandrel I0 engages pin I34 and effects the closure of switch I 32, I33 to thereby complete the circuit to solenoid I36, assuming for the moment that no other control switches are providedin said circuit. Bell crank I38 is thus moved into the illustrated position (Fig. 16) for operatively connecting sleeve I31 and rod 95.

With the mandrel and body thus properly positioned, the operator depresses a pedal to actuate the control valve for energizing the power means (same as Fig. 7) so that piston rod 95, I31 will be pulled downwardly. This movement of said rod tends to align links I05, I06 and,

hence, move arm I08 and shaft H0 in a clockwise direction, as viewed in the drawings. Through the medium of gears III, II2, shaft H0 is moved simultaneously with shaft IIO, but in a counterclockwise direction, thereby causing arms H3 and I I3 to converge from the positions illustrated in Fig. 17. During the initial converging movement of arms I 09, I09, the force exerted by pins H5, H5 on arms II3, I33 is released and the latter also converge under the influence of springs H4, 4' until gears II9, I I9 move into mesh (Fig. 19) i. e. until the folding mechanism is in operative position.

During the continued converging movement of arms I09, I09, as permitted by slots H3, H6, folding blades H3, H0. are pivoted or swung inwardly through substantially 90 (Fig. 20) about the axes of trunnions I I1, II1' a's pivots by the force of arms I30, I30 against fins I2I, I2I. The inward swinging movement of blades H0, H0 is effective to fold the overhanging marginal portion of body I I in the manner heretofore fully pointed out. While said blades are in folding position, continued converging movement of arms I09, I09 brings sealing irons I23. I23 into engagement with opposite faces of tab I4 to thereby heat seal and emboss the same and thereby hermetically close the top of container I 5 (Fig. 21). The operator then releases the control pedal whereupon the power actuator is energized to push rod 95, I31 upwardly and return the parts to the open inoperative position illustrated in Fig. 17. During said opening movement, arms H3, 3' remain stationary until pins H5, H5 reach the outer ends of slots H0, H6 at which time sealing irons I23, I23 are clear of blades H8, H0.

Plowing tabs Novel means, which are preferably installed adjacent the top-sealing apparatus just described, are provided for folding tab I4 and tabs or ears I3 formed in said apparatus down against the walls of the container (Fig. 3). Said means, in the illustrated embodiment, comprises a plow (Figs. 24 to 26) having a vertically extending portion I4I with a portion I42 at the upper end thereof bent at an angle thereto andhaving a width substantially equal to the length of tab I4. The outer ends of portion I42 are merged or connected with side walls I43, which extend at right angles to portion MI ,by a curved, somewhat helicoldal surface I44 (Fig. 26).

After body II, with the top thereof formed and sealed, is removed with mandrel I0 from the top-sealing machine, the same is inserted in the above-described folding plow with one portion of end wall I2 engaging the vertical portion or wall I4I of the plow. Upon downward linear movement of the body and mandrel from the lower position illustrated in Fig. 14, tab I4 is folded flat against the other portion of end wall I2 by angular portion I42 and the outer ends of said tab, together with ears I3, are folded by engagement with helical surfaces I44 and side walls I43 into contact with walls III) of the container (Fig. 4).

Filling and packing Container I5, being thus completed to the stage illustrated in Fig. 4, is removed from mandrel I0 and inserted in chuck I1 for filling and closing (Figs. 27 and 28). Said chuck, in the form illustrated, comprises a block I45 on which are mounted a pair of U-shaped jaw members I46, adapted to form a pocket for receiving container I5. One of the members I46 is preferably pivotally secured to said block at I41 to thereby permit opening of the chuck and facilitate the insertion and removal of the container. Members I46 ar normally held in closed position by a tension spring I48 and are each provided with a recess I49 in the inner wall thereof for accommodating the folded ears I3, I3 adjacent the top of the container. The length of members I46 above block I45 is preferably substantially equal to the desired length of the finished container (Fig. 6) so that a marginal portion of the unfilled container at the open end thereof projects beyond said members. For purposes to appear hereinafter, jaw members I46 have grooved ears I50 extending laterally from the sides thereof and block I45 has a pair of Iongitudinally extending bores I5I therein.

After a measured quantity of tobacco I8 or other product to be packaged has been placed in container I5 through any suitable means, such as a funnel I52, packing strip I9, which constitutes in effect a temporary or secondary closure, is inserted against the surface of the tobacco by a suitable packing plunger (not shown) whereby the tobacco is packed to the position illustrated in Fig. 28 without contaminating the operating face of the plunger with tobacco.

Bottom forming and sealing Chuck I1, with the filled container supported therein, is next transferred to a bottom-folding and -sealing machine whereby the marginal portion of body II which extends beyond the upper end of the chuck and secondary closure 1 9 is folded and sealed in the same manner in which the top of the container was closed to thereby form end wall I2, I2, ears I3, I3 and tab I4 (Fig. 5). Said bottom-folding and -sealing machine (Figs. 29 to 31) is identical in many respects with the top-folding and -sealing machine above described, the chief difference in the two being merely that the folding and sealing mechanisms thereof are mounted on their supports at right angles with respect to each other. the top sealer extend horizontally while those of the bottom sealer extend vertically in order to prevent spilling of tobacco I8 therefrom during the folding operation. Accordingly, the structure and operation of the bottom closing machine of Figs. 29 to 31, inclusive, will not be described in detail, but parts thereof which are similar, except as to the position in which the same are mounted, to parts of the machine of Fig. 14 will be designated by the same reference numerals as said similar parts.

As above pointed out, the folding and sealing mechanisms of the bottom sealing machine extend vertically, as distinguished from horizontally, i. e., arms I09, I09 and H3, H3 extend vertically from their supporting shafts III), II. which are rotatably mounted with their axes in the'same horizontal plane on a bracket I53 rigidly secured to the upper end of standard 94. Arm I08 which extends horizontally in Fig. 29 is operatively connected to piston rod 95, I31 by a link I54 and abell crank I55 pivotally mounted on bracket I53. It will be understood that the power means for actuating piston rod 95, I31 and the control means for said power means are similar to or identical with those shown in Fig. 7.

For positioning chuck I1 in the bottom sealer. the latter is provided with a pair of upwardly projecting pins 91 which are rigidly secured to bracket I53 between shafts I10, IIO and adapted to slidably extend into bores I5I of said chuck (Fig. 31). The safety mechanism of Fig. 16 is also employed on the bottom sealer so that the latter cannot be rendered operative unless chuck I1 is in its proper position, i. e., down against bracket I53 and, hence, pushing rod I34 downwardly to close switch I32, I33 (Fig. 30).

When the operator depresses the control pedal and thereby energizes the power means, rod 95, I31 moves downwardly thereby causing arms H3, H3 to move gears I I9, 9' into engagement and causing arms I09, I09 and I30, I30 to swing the folding plates inwardly to form end wall I2, ears I3 and tab I4 in the manner heretofore fully described. During this folding operation, strip I9 serves as an internal support for maintaining the outline of the end of the package and for preventing any crushing of the contents thereof. Downward movement of rod 95, I31 also moves irons I23, I23 into engagement with tab I4 to imperviously heat-seal the same, thereby hermetically sealing tobacco I8 within container I5. Upward movement of piston rod 95, I31 for moving the parts to open position (Fig. 31), after the sealing of tab I4 is completed, is effected by releasing the control pedal to reverse the operation of the power actuator in the manner heretofore fully described.

Plowing bottom tabs Container I5 having been thus imperviously sealed and completed to the stage illustrated in Fig. 5 is next subjected to the action of a second plow (Figs. 32 and 33) whereby tab I4 and tabs or cars I3 are folded down against the bottom end of the container, as shown in Fig. 6, by a The laws of 

